Participation of ezrin in bacterial uptake by trophoblast giant cells

Background  

Trophoblast giant (TG) cells are involved in systematic removal of bacterial pathogens from the maternal-fetal interface of the placenta. In particular, TG cells have the ability to take up extracellular antigens by active phagocytosis induced by interferon-gamma (IFN-gamma). We previously reported that heat shock cognate protein 70 (Hsc70) present on the surface of TG cells mediated the uptake of Brucella abortus. However, the mechanism of bacterial uptake by TG cells is not completely understood. Here we identified ezrin, a member of ezrin-radixin-moesin (ERM) protein family, as a molecule associated with Hsc70.     

Participation of ezrin in bacterial uptake by trophoblast giant cells

A simple, safe and cost-effective treatment protocol in ovarian stimulation is of great importance in IVF practice, especially in the case of previous unsuccessful attempts. hCG has been used as a substitute of LH because of the degree of homology between the two hormones. The main aim of this prospective randomized study was to determine, for the first time, whether low dose hCG added to rFSH for ovarian stimulation could produce better results compared to the addition of rLH in women entering IVF-ET, especially in those women that had previous IVF failures. An additional aim was to find an indicator that would allow us to follow-up ovarian stimulation and, possibly, modify it in order to achieve a better IVF outcome; and that indicator may be the cDNA copies of the LH/hCG receptor. Group A patients (n = 58) were administered hCG and Group B rLH (n = 56) in addition to rFSH in the first days of ovarian stimulation. The number of follicles and oocytes and, most importantly, implantation and pregnancy rates were shown to be statistically significantly higher in the hCG group. This study has also determined, for the first time to our best knowledge, m-RNA for LH/hCG receptors in the lymphocytes of peripheral blood 40 h before ovum pick-up. cDNA levels of the hCG receptor after ovarian stimulation were significantly higher among women receiving hCG compared to those receiving LH. In addition, higher levels were encountered among women with pregnancy compared to those without, although this was not statistically significant due to the small number of pregnancies. It seems that hCG permits a highly effective and more stable occupancy of rLH/hCG receptors and gives more follicles and more oocytes. The determination of cDNA copies could be, in the future, a marker during ovulation induction protocols and of course a predictor for the outcome of ART in the special subgroup of patients with previous failures.     

Heat shock cognate protein 70 contributes to <Emphasis Type="Italic">Brucella</Emphasis> invasion into trophoblast giant cells that cause infectious abortion

Background  

The cell tropism of Brucella abortus, a causative agent of brucellosis and facultative intracellular pathogen, in the placenta is thought to be a key event of infectious abortion, although the molecular mechanism for this is largely unknown. There is a higher degree of bacterial colonization in the placenta than in other organs and many bacteria are detected in trophoblast giant (TG) cells in the placenta. In the present study, we investigated mechanism of B. abortus invasion into TG cells.     

The heat shock protein HSP70 and heat shock cognate protein HSC70 contribute to antimony tolerance in the protozoan parasite leishmania

Antimony-containing drugs are still the drugs of choice in the treatment of infections caused by the parasite Leishmania. Resistance to antimony is now common in some parts of the world, and several mechanisms of resistance have been described. By transfecting cosmid banks and selecting with potassium antimonyl tartrate (SbIII), we have isolated a cosmid associated with resistance. This cosmid contains 2 copies of the heat shock protein 70 (HSP70) and 1 copy of the heat shock cognate protein 70 (HSC70). Several data linked HSP70 to antimony response and resistance. First, several Leishmania species, both as promastigotes and amastigotes, increased the expression of their HSP70 proteins when grown in the presence of 1 or 2 times the Effect Concentration 50% of SbIII. In several mutants selected for resistance to either SbIII or to the related metal arsenite, the HSP70 proteins were found to be overexpressed. This increase was also observed in revertant cells grown for several passages in the absence of SbIII, suggesting that this increased production of HSP70 is stable. Transfection of HSP70 or HSC70 in Leishmania cells does not confer resistance directly, though these transfectants were better able to tolerate a shock with SbIII. Our results are consistent with HSP70 and HSC70 being a first line of defense against SbIII until more specific and efficient resistance mechanisms take over.     

Regulation of the Dbl proto-oncogene by heat shock cognate protein 70 (Hsc70)

The dbl oncogene product is the defining member of a family of onco-proteins known as Dbl guanine nucleotide exchange factors (GEFs) that facilitate the activation of the small GTP-binding proteins Cdc42, Rac, and Rho. Oncogenic activation of proto-Dbl occurs through loss of the amino-terminal 497 residues, rendering the protein constitutively active. Because both onco- and proto-Dbl contain the structural elements required for GEF activity (i.e. the Dbl homology (DH) and pleckstrin homology (PH) domains), it is thought that the amino terminus of proto-Dbl somehow inhibits the biochemical activity of the protein. To better understand the molecular basis of this regulation, we set forth to identify cellular proteins that preferentially bind the proto-oncogenic form of Dbl. We identified the molecular chaperone heat shock cognate protein (Hsc70) as a binding partner that preferentially interacts with the proto-oncogenic form of Dbl. Dbl is complexed with Hsc70 in transfected cells, as well as in native mouse brain extracts. The interaction between Hsc70 and proto-Dbl is mediated by at least two regions in Dbl, the aminoterminal spectrin homology domain (residues 224-417) and the pleckstrin homology domain (residues 711-808). Overexpression of a dominant negative Hsc70 mutant leads to activation of proto-Dbl GEF activity, indicating that the chaperone negatively regulates proto-Dbl function in vivo. We propose that Hsc70 attenuates Dbl activity by maintaining an inactive conformation in which the amino terminus is "folded over" the catalytic DH-PH domain.     

Antisense oligonucleotide to the 70-kDa heat shock cognate protein inhibits synthesis of myelin basic protein

Transfection of rat oligodendrocytes with an oligonucleotide sequence complementary to the mRNA encoding the initial ten amino acids of the rat 70-kDa heat shock cognate protein (HSC70) resulted in a rapid (within 24 h) and significant reduction in HSC70 synthesis (69% of control cells transfected with sense oligonucleotide). A further decrease to approximately 44% of controls was detected after 2 days. At that time, HSC70 protein content fell to approximately 49% of controls, and a significant reduction in the synthesis of myelin basic protein (MBP) was first detected (66% of controls). After 5 days, HSC70 synthesis returned to control levels. As HSC70 protein content recovered, so did the synthesis of MBP. Throughout the 5-day experimental period, only minor changes were detected in cell morphology, overall pattern of protein synthesis and the synthesis and content of proteolipid protein (PLP) and the pi isoenzyme of glutathione-S-transferase (pi). These data show that when HSC70 protein content is sufficiently reduced by antisense oligonucleotide, synthesis of MBP (but not PLP or pi) is correspondingly down-regulated, and provide evidence consistent with the role of HSC70 as a chaperone for MBP. Special issue dedicated to Dr. Marion E. Smith.     

Specific interaction of the 70-kDa heat shock cognate protein with the tetratricopeptide repeats

Using a yeast two-hybrid system with the 70-kDa heat shock cognate protein (hsc70) or its C-terminal 30-kDa domain as baits, we isolated several proteins interacting with hsc70, including Hip/p48 and p60/Hop. Both are known to interact with hsc70. Except for Hip/p48, all of the proteins that we isolated interact with the 30-kDa domain. Moreover, the EEVD motif at the C terminus of the 30-kDa domain appears essential for this interaction. Sequence analysis of these hsc70-interacting proteins reveals that they all contain tetratricopeptide repeats. Using deletion mutants of these proteins, we demonstrated either by two-hybrid or in vitro binding assays that the tetratricopeptide repeat domains in these proteins are necessary and sufficient for mediating the interaction with hsc70.     

Expression and sulfogalactolipid binding specificity of the recombinant testis-specific cognate heat shock protein 70

Immunofluorescent studies with anti-2A antisera, raised specifically against a synthetic C-terminal peptide of native murine P70, the testes-specific cognate heat shock protein 70, demonstrated that the rat homologue of P70 is expressed on the surface of testicular cells. The murine hsp 70.2 gene, encoding P70, was cloned and expressed in Escherichia coli. The recombinant P70 (rP70) protein with a 6Xhistidine affinity tag at its amino terminus was purified from E. coli via nickel affinity column chromatography. Monoclonal anti-hsp70 antisera and anti-2A antisera cross-reacted with purified rP70. Binding of rP70 was specific for sulfogalactosylceramide (SGC) and sulfogalactosyglycerolipid (SGG). Binding was not inhibited by the sugar, galactose 3′ sulfate, nor was binding observed to desulfated derivatives of SGC and SGG, to other negatively charged lipids or other sulfated lipids. Furthermore, rP70 bound to an SGC-column and was eluted only at high salt in combination with high pH. These results show rP70 to possess a specific sulfatide binding site. Since the biochemical properties and immunoreactivity of rP70 are indistinguishable from native P70 and SLIP1 (testicular sulfoglycolipid immobilized protein 1) rP70 can be employed to examine the role of hsp70-mediated sulfatide binding in fertilization. Abbreviations: PAGE, polyacrylamide gel electrophoresis; IPTG, isopropylthio-β-D-galactoside; X-gal, 5-bromo-4-chloro-3-indolyl-β-D-galactoside; km, kanamycin; amp, ampicillin; kDa, kilodaltons; kb, kilobases; BHI, brain heart infusion; OPD, O-phenylenediamine dichloride peroxidase substrate; RT, room temperature; h, hours This revised version was published online in November 2006 with corrections to the Cover Date.     

A critical role of heat shock cognate protein 70 in Apoptin-induced phosphorylation of Akt

Apoptin, a protein from chicken anemia virus, selectively induces apoptosis of transformed or tumor cells, but not in normal cells. However, the mechanism of action of Apoptin is still not well understood. Using yeast two-hybrid and immunoprecipitation approaches, we found that Apoptin interacted with Heat shock cognate protein 70 (Hsc70). In vivo, Apoptin induced the translocation of endogenous Hsc70 from the cytoplasm to the nucleus, and both were co-localized in the nucleus. In addition, Apoptin induced Akt phosphorylation, which was markedly inhibited by Hsc70 knockdown, suggesting that Hsc70 may play a critical role in Apoptin-induced Akt phosphorylation. These findings help to further understand the molecular mechanism of Apoptin.     

Exogenous heat shock cognate protein Hsc70 prevents axotomy-induced death of spinal sensory neurons

Elevation of intracellular heat shock protein (Hsp)70 increases resistance of cells to many physical and metabolic insults. We tested the hypothesis that treatment with Hsc70 can also produce that effect, using the model of axotomy-induced neuronal death in the neonatal mouse. The sciatic nerve was sectioned and in some animals purified bovine brain Hsc70 was applied to the proximal end of the nerve immediately thereafter and again 3 days later. Seven days postaxotomy, the surviving sensory neurons of the lumbar dorsal root ganglion (DRG) and motoneurons of the lumbar ventral spinal cord were counted to assess cell death. Axotomy induced the death of approximately 33% of DRG neurons and 50% of motoneurons, when examined 7 days postinjury. Application of exogenous Hsc70 prevented axotomy-induced death of virtually all sensory neurons, but did not singificantly alter motoneuron death. Thus, Hsc70 may prove to be useful in the repair of peripheral sensory nerve damage.     

Antibodies against 70-kD heat shock cognate protein inhibit mediated nuclear import of karyophilic proteins

Previously, we found that anti-DDDED antibodies strongly inhibited in vivo nuclear transport of nuclear proteins and that these antibodies recognized a protein of 69 kD (p69) from rat liver nuclear envelopes that showed specific binding activities to the nuclear location sequences (NLSs) of nucleoplasmin and SV-40 large T-antigen. Here we identified this protein as the 70-kD heat shock cognate protein (hsc70) based on its mass, isoelectric point, cellular localization, and partial amino acid sequences. Competition studies indicated that the recombinant hsc70 expressed in Escherichia coli binds to transport competent SV-40 T-antigen NLS more strongly than to the point mutated transport incompetent mutant NLS. To investigate the possible involvement of hsc70 in nuclear transport, we examined the effect of anti-hsc70 rabbit antibodies on the nuclear accumulation of karyophilic proteins. When injected into the cytoplasm of tissue culture cells, anti-hsc70 strongly inhibited the nuclear import of nucleoplasmin, SV-40 T-antigen NLS bearing BSA and histone H1. In contrast, anti-hsc70 IgG did not prevent the diffusion of lysozyme or 17.4-kD FITC-dextran into the nuclei. After injection of these antibodies, cells continued RNA synthesis and were viable. These results indicate that hsc70 interacts with NLS-containing proteins in the cytoplasm before their nuclear import.     

Molecular identification and expression of heat shock cognate 70 (hsc70) and heat shock protein 70 (hsp70) genes in the Pacific oyster Crassostrea gigas

The 70-kDa heat shock protein (Hsp) family is composed of both environmentally inducible (Hsp) and constitutively expressed (Hsc) family members. We sequenced 2 genes encoding an Hsp70 and an Hsc70 in the Pacific oyster Crassostrea gigas. The Cghsc70 gene contained introns, whereas the Cghsp70 gene did not. Moreover, the corresponding amino acid sequences of the 2 genes presented all the characteristic motifs of the Hsp70 family. We also investigated the expression of Hsp70 in tissues of oysters experimentally exposed to metal. A recombinant Hsc72 was used as an antigen to produce a polyclonal antibody to quantify soluble Hsp70 by enzyme-linked immunosorbent assay in protein samples extracted from oysters. Our results showed that metals (copper and cadmium) induced a decrease in cytosolic Hsp70 level in gills and digestive gland of oysters experimentally exposed to metal. These data suggest that metals may inhibit stress protein synthesis.     

Surface binding and uptake of heat shock protein 70 by antigen-presenting cells require all 3 domains of the molecule

The surprisingly efficient uptake of peptide-loaded heat shock proteins (Hsps) by antigen-presenting cells (APCs) has been recently associated with a specific receptor-ligand-based mechanism, and the identity of at least 1 receptor has been determined. In this study, we tested how the domain composition of the stress protein affected its surface association and internalization by APCs, and this was facilitated by the availability of the 70-kDa human heat shock protein (Hsp70) and its various deletion mutants. We show that both these processes strictly depend on the presence of all 3 domains of Hsp70. We propose that the previously described interdomain interactions as a determinant of a favorable conformational status might also govern a sterical adaptation of Hsps to components of the internalization machinery.     

Localization of heat shock protein 70 in rat mast cells

Heat shock proteins (Hsp) are intracellular chaperons, as well as extracellular molecules with immunomodulatory and signaling functions engaged in adaptation to stress on the cellular and organism levels. The presence of Hsp in secretory granules of mast cells (MCs) may be correlated with mast cells’ active participation in adaptation to stress. Using immunoelectron microscopy, we showed that Hsp70 was localized in secretory granules of rat pericardial and peritoneal mast cells. Localization of Hsp70 in rat peritoneal mast cells isolated by Percoll density gradient centrifugation was confirmed by immunoblotting. The possible involvement of mast cells in production of extracellular Hsp70, as well as Hsp70 functions inside the mast cells, is discussed.     

Identification of novel nuclear export and nuclear localization-related signals in human heat shock cognate protein 70

Heat shock cognate protein 70 (Hsc70) serves nuclear transport of several proteins as a molecular chaperone. We have recently identified a novel variant of human Hsc70, heat shock cognate protein 54 (Hsc54), that lacks amino acid residues 464-616 in the protein binding and variable domains of Hsc70. In the present study, we examined nucleocytoplasmic localization of Hsc70 and Hsc54 by using green fluorescent protein (GFP) fusions. GFP-Hsc70 is localized in both the cytoplasm and the nucleus at 37 degrees C and accumulated into the nucleolus/nucleus after heat shock, whereas GFP-Hsc54 always remained exclusively in the cytoplasm under these conditions. Mutation studies indicated that 20 amino acid residues of nuclear localization-related signals, which are missing in Hsc54 but are retained in Hsc70, are required for proper nuclear localization of Hsc70. We further found that Hsc54 contains a functional leucine-rich nuclear export signal (NES, (394)LDVTPLSL(401)) which is differently situated from the previously proposed NES in Saccharomyces cerevisiae Ssb1p. The cytoplasmic localization of Hsc54 was impaired by a mutation in NES as well as by a nuclear export inhibitor, leptomycin B, suggesting that Hsc54 is actively exported from the nucleus to the cytoplasm through a CRM1-dependent mechanism. In contrast, the nucleocytoplasmic localization of Hsc70 was not affected by the same mutation of NES or leptomycin B. These results suggest that the nuclear localization-related signal could functionally mask NES leading to prolonged retention of Hsc70 in the nucleus. An additional mechanism for unmasking the NES may regulate nucleocytoplasmic trafficking of Hsc70.     

Spectroscopic and thermodynamic measurements of nucleotide-induced changes in the human 70-kDa heat shock cognate protein

Hsp70 alternates between an ATP-bound state in which the affinity for substrate is low and an ADP-bound state in which the affinity for substrate is high, as a result Hsp70 assists the protein folding process through nucleotide-controlled cycles of substrate binding and release. In this work, we describe the cloning and purification of the human 70-kDa heat shock cognate protein, Hsc70, and the use of circular dichroism, intrinsic emission fluorescence, and isothermal titration calorimetry to characterize conformational changes induced by ADP and ATP binding. Binding of either ADP or ATP were not accompanied by a net change in secondary structure suggesting that the conformational rearrangement caused by nucleotide binding is localized. MgADP or MgATP had a greater effect in the stability at stress temperatures than ADP or ATP did. Isothermal titration calorimetry data pointed out that Hsc70 had a lower affinity for ATP (KD=710 nM) than for ADP (KD=260 nM).     

NF-kappaB p65 regulates nuclear translocation of Ku70 via degradation of heat shock cognate protein 70 in pancreatic acinar AR42J cells

Ku proteins such as Ku70 and Ku80 play key roles in multiple nuclear processes. Nuclear translocation of Ku70 is independent of Ku80 translocation and mediated by nuclear localization signal (NLS) receptors including importin-alpha. In the present study using pancreatic acinar AR42J cells, heat shock cognate protein 70 (Hsc70) was identified as the protein associated with NLS of Ku70. Interaction of Ku70 with importin-alpha and nuclear translocation of Ku70 was suppressed by overexpression of Hsc70, but enhanced by downregulation of Hsc70. The results suggest that the formation of Ku70 complex with Hsc70 prevents NLS of Ku70 from access of importin-alpha and inhibits nuclear translocation of Ku70. Since NF-kappaB p65 activation induced the decrease of Hsc70 level, the interaction of Ku70 with importin-alpha and nuclear translocation of Ku70 increased upon the activation of NF-kappaB p65. NF-kappaB p65 induced cell proliferation through decrease of Hsc70 levels and increase of nuclear translocation of Ku70. In the cells treated with cerulein as a physiological stimulus to activate NF-kappaB p65, nuclear translocation of Ku70 increased through NF-kappaB p65-mediated decrease of Hsc70 level. The results suggest that the involvement of NF-kappaB p65 in nuclear translocation of Ku70 may be mediated by Hsc70 degradation, which may play a key role in cell proliferation of pancreatic acinar AR42J cells.     

A small heat shock protein cooperates with heat shock protein 70 systems to reactivate a heat-denatured protein

Small heat shock proteins (sHsps) are a diverse group of heat-induced proteins that are conserved in prokaryotes and eukaryotes and are especially abundant in plants. Recent in vitro data indicate that sHsps act as molecular chaperones to prevent thermal aggregation of proteins by binding non-native intermediates, which can then be refolded in an ATP-dependent fashion by other chaperones. We used heat-denatured firefly luciferase (Luc) bound to pea (Pisum sativum) Hsp18.1 as a model to define the minimum chaperone system required for refolding of a sHsp-bound substrate. Heat-denatured Luc bound to Hsp18.1 was effectively refolded either with Hsc/Hsp70 from diverse eukaryotes plus the DnaJ homologs Hdj1 and Ydj1 (maximum = 97% Luc reactivation with k(ob) = 1.0 x 10(-2)/min), or with prokaryotic Escherichia coli DnaK plus DnaJ and GrpE (100% Luc reactivation, k(ob) = 11.3 x 10(-2)/min). Furthermore, we show that Hsp18.1 is more effective in preventing Luc thermal aggregation than the Hsc70 or DnaK systems, and that Hsp18.1 enhances the yields of refolded Luc even when other chaperones are present during heat inactivation. These findings integrate the aggregation-preventive activity of sHsps with the protein-folding activity of the Hsp70 system and define an in vitro system for further investigation of the mechanism of sHsp action.